libs/math/octonion/octonion_test.cpp
// test file for octonion.hpp // (C) Copyright Hubert Holin 2001. Permission to copy, use, modify, sell and // distribute this software is granted provided this copyright notice appears // in all copies. This software is provided "as is" without express or implied // warranty, and with no claim as to its suitability for any purpose. #include <iomanip> #include <iostream> #include <sstream> #include <functional> #include <boost/bind.hpp> #include <boost/function.hpp> #include <boost/test/unit_test.hpp> #include <boost/test/unit_test_suite_ex.hpp> #include <boost/math/octonion.hpp> #if defined(__GNUC__) && (__GNUC__ < 3) // gcc 2.x ignores function scope using declarations, // put them in the scope of the enclosing namespace instead: using ::std::sqrt; using ::std::atan; using ::std::log; using ::std::exp; using ::std::cos; using ::std::sin; using ::std::tan; using ::std::cosh; using ::std::sinh; using ::std::tanh; using ::std::numeric_limits; using ::boost::math::abs; #endif /* defined(__GNUC__) && (__GNUC__ < 3) */ #ifdef BOOST_NO_STDC_NAMESPACE using ::sqrt; using ::atan; using ::log; using ::exp; using ::cos; using ::sin; using ::tan; using ::cosh; using ::sinh; using ::tanh; #endif /* BOOST_NO_STDC_NAMESPACE */ #ifdef BOOST_NO_ARGUMENT_DEPENDENT_LOOKUP using ::boost::math::real; using ::boost::math::unreal; using ::boost::math::sup; using ::boost::math::l1; using ::boost::math::abs; using ::boost::math::norm; using ::boost::math::conj; using ::boost::math::exp; using ::boost::math::pow; using ::boost::math::cos; using ::boost::math::sin; using ::boost::math::tan; using ::boost::math::cosh; using ::boost::math::sinh; using ::boost::math::tanh; using ::boost::math::sinc_pi; using ::boost::math::sinhc_pi; #endif /* BOOST_NO_ARGUMENT_DEPENDENT_LOOKUP */ // Provide standard floating point abs() overloads for MSVC #ifdef BOOST_MSVC #if (BOOST_MSVC < 1300) || (defined(_MSC_EXTENSIONS) && BOOST_MSVC < 1310) inline float abs(float v) { return(fabs(v)); } inline double abs(double v) { return(fabs(v)); } inline long double abs(long double v) { return(fabs(v)); } #endif /* need abs */ #endif /* BOOST_MSVC */ // explicit (if ludicrous) instanciation #ifndef __GNUC__ template class ::boost::math::octonion<int>; #else // gcc doesn't like the absolutely-qualified namespace template class boost::math::octonion<int>; #endif namespace { template<typename T> ::boost::math::octonion<T> index_i_element(int idx) { return( ::boost::math::octonion<T>( (idx == 0) ? static_cast<T>(1) : static_cast<T>(0), (idx == 1) ? static_cast<T>(1) : static_cast<T>(0), (idx == 2) ? static_cast<T>(1) : static_cast<T>(0), (idx == 3) ? static_cast<T>(1) : static_cast<T>(0), (idx == 4) ? static_cast<T>(1) : static_cast<T>(0), (idx == 5) ? static_cast<T>(1) : static_cast<T>(0), (idx == 6) ? static_cast<T>(1) : static_cast<T>(0), (idx == 7) ? static_cast<T>(1) : static_cast<T>(0) )); } } void octonion_manual_test() { // tests for evaluation by humans // using default constructor ::boost::math::octonion<float> o0; ::boost::math::octonion<float> oa[2]; // using constructor "O seen as R^8" ::boost::math::octonion<float> o1(1,2,3,4,5,6,7,8); ::std::complex<double> c0(9,10); // using constructor "O seen as C^4" ::boost::math::octonion<double> o2(c0); ::boost::math::quaternion<long double> q0(11,12,13,14); // using constructor "O seen as H^2" ::boost::math::octonion<long double> o3(q0); // using UNtemplated copy constructor ::boost::math::octonion<float> o4(o1); // using templated copy constructor ::boost::math::octonion<long double> o5(o2); // using UNtemplated assignment operator o5 = o3; oa[0] = o0; // using templated assignment operator o5 = o2; oa[1] = o5; float f0(15); // using converting assignment operator o0 = f0; // using converting assignment operator o2 = c0; // using converting assignment operator o5 = q0; // using += (const T &) o4 += f0; // using += (const ::std::complex<T> &) o2 += c0; // using += (const ::boost::math::quaternion<T> &) o3 += q0; // using += (const quaternion<X> &) o5 += o4; // using -= (const T &) o1 -= f0; // using -= (const ::std::complex<T> &) o2 -= c0; // using -= (const ::boost::math::quaternion<T> &) o5 -= q0; // using -= (const octonion<X> &) o3 -= o4; double d0(16); ::std::complex<double> c1(17,18); ::boost::math::quaternion<double> q1(19,20,21,22); // using *= (const T &) o2 *= d0; // using *= (const ::std::complex<T> &) o2 *= c1; // using *= (const ::boost::math::quaternion<T> &) o2 *= q1; // using *= (const octonion<X> &) o2 *= o4; long double l0(23); ::std::complex<long double> c2(24,25); // using /= (const T &) o5 /= l0; // using /= (const ::std::complex<T> &) o5 /= c2; // using /= (const quaternion<X> &) o5 /= q0; // using /= (const octonion<X> &) o5 /= o5; // using + (const T &, const octonion<T> &) ::boost::math::octonion<float> o6 = f0+o0; // using + (const octonion<T> &, const T &) ::boost::math::octonion<float> o7 = o0+f0; // using + (const ::std::complex<T> &, const quaternion<T> &) ::boost::math::octonion<double> o8 = c0+o2; // using + (const octonion<T> &, const ::std::complex<T> &) ::boost::math::octonion<double> o9 = o2+c0; // using + (const ::boost::math::quaternion<T>, const octonion<T> &) ::boost::math::octonion<long double> o10 = q0+o3; // using + (const octonion<T> &, const ::boost::math::quaternion<T> &) ::boost::math::octonion<long double> o11 = o3+q0; // using + (const quaternion<T> &,const quaternion<T> &) ::boost::math::octonion<float> o12 = o0+o4; // using - (const T &, const octonion<T> &) o6 = f0-o0; // using - (const octonion<T> &, const T &) o7 = o0-f0; // using - (const ::std::complex<T> &, const octonion<T> &) o8 = c0-o2; // using - (const octonion<T> &, const ::std::complex<T> &) o9 = o2-c0; // using - (const quaternion<T> &,const octonion<T> &) o10 = q0-o3; // using - (const octonion<T> &,const quaternion<T> &) o11 = o3-q0; // using - (const octonion<T> &,const octonion<T> &) o12 = o0-o4; // using * (const T &, const octonion<T> &) o6 = f0*o0; // using * (const octonion<T> &, const T &) o7 = o0*f0; // using * (const ::std::complex<T> &, const octonion<T> &) o8 = c0*o2; // using * (const octonion<T> &, const ::std::complex<T> &) o9 = o2*c0; // using * (const quaternion<T> &,const octonion<T> &) o10 = q0*o3; // using * (const octonion<T> &,const quaternion<T> &) o11 = o3*q0; // using * (const octonion<T> &,const octonion<T> &) o12 = o0*o4; // using / (const T &, const octonion<T> &) o6 = f0/o0; // using / (const octonion<T> &, const T &) o7 = o0/f0; // using / (const ::std::complex<T> &, const octonion<T> &) o8 = c0/o2; // using / (const octonion<T> &, const ::std::complex<T> &) o9 = o2/c0; // using / (const ::boost::math::quaternion<T> &, const octonion<T> &) o10 = q0/o3; // using / (const octonion<T> &, const ::boost::math::quaternion<T> &) o11 = o3/q0; // using / (const octonion<T> &,const octonion<T> &) o12 = o0/o4; // using + (const octonion<T> &) o4 = +o0; // using - (const octonion<T> &) o0 = -o4; // using == (const T &, const octonion<T> &) f0 == o0; // using == (const octonion<T> &, const T &) o0 == f0; // using == (const ::std::complex<T> &, const octonion<T> &) c0 == o2; // using == (const octonion<T> &, const ::std::complex<T> &) o2 == c0; // using == (const ::boost::math::quaternion<T> &, const octonion<T> &) q0 == o3; // using == (const octonion<T> &, const ::boost::math::quaternion<T> &) o3 == q0; // using == (const octonion<T> &,const octonion<T> &) o0 == o4; // using != (const T &, const octonion<T> &) f0 != o0; // using != (const octonion<T> &, const T &) o0 != f0; // using != (const ::std::complex<T> &, const octonion<T> &) c0 != o2; // using != (const octonion<T> &, const ::std::complex<T> &) o2 != c0; // using != (const ::boost::math::quaternion<T> &, const octonion<T> &) q0 != o3; // using != (const octonion<T> &, const ::boost::math::quaternion<T> &) o3 != q0; // using != (const octonion<T> &,const octonion<T> &) o0 != o4; BOOST_MESSAGE("Please input an octonion..."); #ifdef BOOST_INTERACTIVE_TEST_INPUT_ITERATOR ::std::cin >> o0; if (::std::cin.fail()) { BOOST_MESSAGE("You have entered nonsense!"); } else { BOOST_MESSAGE("You have entered the octonion " << o0 << " ."); } #else ::std::istringstream bogus("(1,2,3,4,5,6,7,8)"); bogus >> o0; BOOST_MESSAGE("You have entered the octonion " << o0 << " ."); #endif BOOST_MESSAGE("For this octonion:"); BOOST_MESSAGE( "the value of the real part is " << real(o0)); BOOST_MESSAGE( "the value of the unreal part is " << unreal(o0)); BOOST_MESSAGE( "the value of the sup norm is " << sup(o0)); BOOST_MESSAGE( "the value of the l1 norm is " << l1(o0)); BOOST_MESSAGE( "the value of the magnitude (euclidian norm) is " << abs(o0)); BOOST_MESSAGE( "the value of the (Cayley) norm is " << norm(o0)); BOOST_MESSAGE( "the value of the conjugate is " << conj(o0)); BOOST_MESSAGE( "the value of the exponential is " << exp(o0)); BOOST_MESSAGE( "the value of the cube is " << pow(o0,3)); BOOST_MESSAGE( "the value of the cosinus is " << cos(o0)); BOOST_MESSAGE( "the value of the sinus is " << sin(o0)); BOOST_MESSAGE( "the value of the tangent is " << tan(o0)); BOOST_MESSAGE( "the value of the hyperbolic cosinus is " << cosh(o0)); BOOST_MESSAGE( "the value of the hyperbolic sinus is " << sinh(o0)); BOOST_MESSAGE( "the value of the hyperbolic tangent is " << tanh(o0)); #ifdef BOOST_NO_TEMPLATE_TEMPLATES BOOST_MESSAGE( "no template templates, can't compute cardinal functions"); #else /* BOOST_NO_TEMPLATE_TEMPLATES */ BOOST_MESSAGE( "the value of the Sinus Cardinal (of index pi) is " << sinc_pi(o0)); BOOST_MESSAGE( "the value of " << "the Hyperbolic Sinus Cardinal (of index pi) is " << sinhc_pi(o0)); #endif /* BOOST_NO_TEMPLATE_TEMPLATES */ BOOST_MESSAGE(" "); float rho = ::std::sqrt(4096.0f); float theta = ::std::atan(1.0f); float phi1 = ::std::atan(1.0f); float phi2 = ::std::atan(1.0f); float phi3 = ::std::atan(1.0f); float phi4 = ::std::atan(1.0f); float phi5 = ::std::atan(1.0f); float phi6 = ::std::atan(1.0f); BOOST_MESSAGE( "The value of the octonion represented " << "in spherical form by " << "rho = " << rho << " , theta = " << theta << " , phi1 = " << phi1 << " , phi2 = " << phi2 << " , phi3 = " << phi3 << " , phi4 = " << phi4 << " , phi5 = " << phi5 << " , phi6 = " << phi6 << " is " << ::boost::math::spherical(rho, theta, phi1, phi2, phi3, phi4, phi5, phi6)); float rho1 = 1; float rho2 = 2; float rho3 = ::std::sqrt(2.0f); float rho4 = ::std::sqrt(8.0f); float theta1 = 0; float theta2 = ::std::atan(1.0f)*2; float theta3 = ::std::atan(1.0f); float theta4 = ::std::atan(::std::sqrt(3.0f)); BOOST_MESSAGE( "The value of the octonion represented " << "in multipolar form by " << "rho1 = " << rho1 << " , theta1 = " << theta1 << " , rho2 = " << rho2 << " , theta2 = " << theta2 << "rho3 = " << rho3 << " , theta3 = " << theta3 << " , rho4 = " << rho4 << " , theta4 = " << theta4 << " is " << ::boost::math::multipolar(rho1, theta1, rho2, theta2, rho3, theta3, rho4, theta4)); float r = ::std::sqrt(2.0f); float angle = ::std::atan(1.0f); float h1 = 3; float h2 = 4; float h3 = 5; float h4 = 6; float h5 = 7; float h6 = 8; BOOST_MESSAGE( "The value of the octonion represented " << "in cylindrical form by " << "r = " << r << " , angle = " << angle << " , h1 = " << h1 << " , h2 = " << h2 << " , h3 = " << h3 << " , h4 = " << h4 << " , h5 = " << h5 << " , h6 = " << h6 << " is " << ::boost::math::cylindrical(r, angle, h1, h2, h3, h4, h5, h6)); double real_1(1); ::std::complex<double> complex_1(1); ::std::complex<double> complex_i(0,1); ::boost::math::quaternion<double> quaternion_1(1); ::boost::math::quaternion<double> quaternion_i(0,1); ::boost::math::quaternion<double> quaternion_j(0,0,1); ::boost::math::quaternion<double> quaternion_k(0,0,0,1); ::boost::math::octonion<double> octonion_1(1); ::boost::math::octonion<double> octonion_i(0,1); ::boost::math::octonion<double> octonion_j(0,0,1); ::boost::math::octonion<double> octonion_k(0,0,0,1); ::boost::math::octonion<double> octonion_e_prime(0,0,0,0,1); ::boost::math::octonion<double> octonion_i_prime(0,0,0,0,0,1); ::boost::math::octonion<double> octonion_j_prime(0,0,0,0,0,0,1); ::boost::math::octonion<double> octonion_k_prime(0,0,0,0,0,0,0,1); BOOST_MESSAGE(" "); BOOST_MESSAGE( "Real 1: " << real_1 << " ; Complex 1: " << complex_1 << " ; Quaternion 1: " << quaternion_1 << " ; Octonion 1: " << octonion_1 << " ."); BOOST_MESSAGE( "Complex i: " << complex_i << " ; Quaternion i: " << quaternion_i << " ; Octonion i : " << octonion_i << " ."); BOOST_MESSAGE( "Quaternion j: " << quaternion_j << " ; Octonion j: " << octonion_j << " ."); BOOST_MESSAGE( "Quaternion k: " << quaternion_k << " ; Octonion k: " << octonion_k << " ."); BOOST_MESSAGE( "Quaternion e\': " << octonion_e_prime << " ."); BOOST_MESSAGE( "Quaternion i\': " << octonion_i_prime << " ."); BOOST_MESSAGE( "Quaternion j\': " << octonion_j_prime << " ."); BOOST_MESSAGE( "Quaternion k\': " << octonion_k_prime << " ."); BOOST_MESSAGE(" "); BOOST_MESSAGE( octonion_1*octonion_1 << " ; " << octonion_1*octonion_i << " ; " << octonion_1*octonion_j << " ; " << octonion_1*octonion_k << " ; " << octonion_1*octonion_e_prime << " ; " << octonion_1*octonion_i_prime << " ; " << octonion_1*octonion_j_prime << " ; " << octonion_1*octonion_k_prime << " ; "); BOOST_MESSAGE( octonion_i*octonion_1 << " ; " << octonion_i*octonion_i << " ; " << octonion_i*octonion_j << " ; " << octonion_i*octonion_k << " ; " << octonion_i*octonion_e_prime << " ; " << octonion_i*octonion_i_prime << " ; " << octonion_i*octonion_j_prime << " ; " << octonion_i*octonion_k_prime << " ; "); BOOST_MESSAGE( octonion_j*octonion_1 << " ; " << octonion_j*octonion_i << " ; " << octonion_j*octonion_j << " ; " << octonion_j*octonion_k << " ; " << octonion_j*octonion_e_prime << " ; " << octonion_j*octonion_i_prime << " ; " << octonion_j*octonion_j_prime << " ; " << octonion_j*octonion_k_prime << " ; "); BOOST_MESSAGE( octonion_k*octonion_1 << " ; " << octonion_k*octonion_i << " ; " << octonion_k*octonion_j << " ; " << octonion_k*octonion_k << " ; " << octonion_k*octonion_e_prime << " ; " << octonion_k*octonion_i_prime << " ; " << octonion_k*octonion_j_prime << " ; " << octonion_k*octonion_k_prime << " ; "); BOOST_MESSAGE( octonion_e_prime*octonion_1 << " ; " << octonion_e_prime*octonion_i << " ; " << octonion_e_prime*octonion_j << " ; " << octonion_e_prime*octonion_k << " ; " << octonion_e_prime*octonion_e_prime << " ; " << octonion_e_prime*octonion_i_prime << " ; " << octonion_e_prime*octonion_j_prime << " ; " << octonion_e_prime*octonion_k_prime << " ; "); BOOST_MESSAGE( octonion_i_prime*octonion_1 << " ; " << octonion_i_prime*octonion_i << " ; " << octonion_i_prime*octonion_j << " ; " << octonion_i_prime*octonion_k << " ; " << octonion_i_prime*octonion_e_prime << " ; " << octonion_i_prime*octonion_i_prime << " ; " << octonion_i_prime*octonion_j_prime << " ; " << octonion_i_prime*octonion_k_prime << " ; "); BOOST_MESSAGE( octonion_j_prime*octonion_1 << " ; " << octonion_j_prime*octonion_i << " ; " << octonion_j_prime*octonion_j << " ; " << octonion_j_prime*octonion_k << " ; " << octonion_j_prime*octonion_e_prime << " ; " << octonion_j_prime*octonion_i_prime << " ; " << octonion_j_prime*octonion_j_prime << " ; " << octonion_j_prime*octonion_k_prime << " ; "); BOOST_MESSAGE( octonion_k_prime*octonion_1 << " ; " << octonion_k_prime*octonion_i << " ; " << octonion_k_prime*octonion_j << " ; " << octonion_k_prime*octonion_k << " ; " << octonion_k_prime*octonion_e_prime << " ; " << octonion_k_prime*octonion_i_prime << " ; " << octonion_k_prime*octonion_j_prime << " ; " << octonion_k_prime*octonion_k_prime << " ; "); BOOST_MESSAGE(" "); BOOST_MESSAGE("i\'*(e\'*j) : " << octonion_i_prime*(octonion_e_prime*octonion_j) << " ;"); BOOST_MESSAGE("(i\'*e\')*j : " << (octonion_i_prime*octonion_e_prime)*octonion_j << " ;"); BOOST_MESSAGE(" "); } template<typename T> void multiplication_test(const char * more_blurb) { #if defined(__GNUC__) && (__GNUC__ < 3) #else /* defined(__GNUC__) && (__GNUC__ < 3) */ using ::std::numeric_limits; using ::boost::math::abs; #endif /* defined(__GNUC__) && (__GNUC__ < 3) */ BOOST_MESSAGE("Testing multiplication for " << more_blurb << "."); BOOST_REQUIRE_PREDICATE(::std::less_equal<T>(), 2, ( abs(::boost::math::octonion<T>(1,0,0,0,0,0,0,0)* ::boost::math::octonion<T>(1,0,0,0,0,0,0,0)- static_cast<T>(1)), numeric_limits<T>::epsilon() )); for (int idx = 1; idx < 8; ++idx) { ::boost::math::octonion<T> toto = index_i_element<T>(idx); BOOST_REQUIRE_PREDICATE(::std::less_equal<T>(), 2, ( abs(toto*toto+static_cast<T>(1)), numeric_limits<T>::epsilon() )); } } template<typename T> void exp_test(const char * more_blurb) { #if defined(__GNUC__) && (__GNUC__ < 3) #else /* defined(__GNUC__) && (__GNUC__ < 3) */ using ::std::numeric_limits; using ::std::atan; using ::boost::math::abs; #endif /* defined(__GNUC__) && (__GNUC__ < 3) */ BOOST_MESSAGE("Testing exp for " << more_blurb << "."); for (int idx = 1; idx < 8; ++idx) { ::boost::math::octonion<T> toto = static_cast<T>(4)*atan(static_cast<T>(1))*index_i_element<T>(idx); BOOST_CHECK_PREDICATE(::std::less_equal<T>(), 2, ( abs(exp(toto)+static_cast<T>(1)), 2*numeric_limits<T>::epsilon() )); } } boost::unit_test_framework::test_suite * init_unit_test_suite(int, char *[]) { //::boost::unit_test_framework::unit_test_log::instance(). // set_log_threshold_level_by_name("messages"); boost::unit_test_framework::test_suite * test = BOOST_TEST_SUITE("octonion_test"); #define BOOST_OCTONION_COMMON_GENERATOR(fct,type) \ test->add(BOOST_TEST_CASE(::boost::bind(static_cast \ < void (*) (const char *) >(&fct##_test<type>), #type))); #define BOOST_OCTONION_TEST(type) \ BOOST_OCTONION_COMMON_GENERATOR(multiplication,type) \ BOOST_OCTONION_COMMON_GENERATOR(exp,type) BOOST_OCTONION_TEST(float) BOOST_OCTONION_TEST(double) BOOST_OCTONION_TEST(long double) #undef BOOST_OCTONION_TEST #undef BOOST_OCTONION_COMMON_GENERATOR #ifdef BOOST_OCTONION_TEST_VERBOSE octonion_manual_test(); #endif /* BOOST_OCTONION_TEST_VERBOSE */ return(test); }